Inelastic heavy quarkonium photoproduction in p-p and Pb-Pb collisions at LHC energies

Abstract

We study the inelastic charmonium (J/, (2S)) and bottomonium ((nS)) photoproduction and fragmentation processes in p-p and Pb-Pb collisions at LHC energies, where the ultra-incoherent photon emission is included. In the framework of the NRQCD factorization approach, an exact treatment is developed which recovers Weizs\"acker-Williams approximation (WWA) near the region Q20, where the methods of Martin-Ryskin and BCCKL are used to avoid double counting. We calculate the Q2, y, z, s, pT dependent and the total cross sections. It turns out that the inelastic photoproduction and fragmentation processes provide valuable contributions to the heavy quarkonium production, especially in the large pT regions. While the relative contribution of ultra-incoherent photon channel is very important, which rapidly increases along with the growing quarkonium mass, and begins to dominate the photoproduction processes at large pT ranges. Moreover, we obtain the complete validity scopes of WWA in inelastic heavy quarkonium photoproduction in heavy-ion collisions. WWA has a much higher accuracy at high energies and in Pb-Pb collisions. The existing photon spectra are generally derived beyond the applicable scopes of WWA, and the double counting exists when the different channels are considered simultaneously.